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US4877356A - Method and apparatus for installing a flowline near the waterbottom - Google Patents

Method and apparatus for installing a flowline near the waterbottom
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Publication number
US4877356A
US4877356AUS07/338,555US33855589AUS4877356AUS 4877356 AUS4877356 AUS 4877356AUS 33855589 AUS33855589 AUS 33855589AUS 4877356 AUS4877356 AUS 4877356A
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United States
Prior art keywords
flowline
guide tube
slots
pivots
guide
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Expired - Lifetime
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US07/338,555
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Pieter J. Bontenbal
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Shell USA Inc
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Shell Oil Co
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Publication date
Application filed by Shell Oil CofiledCriticalShell Oil Co
Assigned to SHELL OIL COMPANY, A CORP. OF DEreassignmentSHELL OIL COMPANY, A CORP. OF DEASSIGNMENT OF ASSIGNORS INTEREST.Assignors: BONTENBAL, PIETER J.
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Abstract

A method and apparatus for stabbing a flowline into a guide tube near the waterbottom and subsequently hinging over the flowline to a horizontal position. The connection operation is facilitated by a vertically oriented guide tube having along the inner wall thereof a pair of parallel slots which provide at the lower ends thereof pivot supports on which a pair of pivots which are mounted near the lower end of the flowline land during the stab in procedure. Deflectors are provided for deflecting a lower portion of the flowline while the pivots are lowered through the slots so as to induce the flowline to obtain a curved shape into a predetermined direction before the pivots land onto the pivot supports.

Description

This is a continuation of application Ser. No. 245,606, filed Sept. 19, 1988, now abandoned.
BACKGROUND OF THE INVENTION
The invention relates to a method and apparatus for installing a flowline near the waterbottom. More particularly it relates to a method and apparatus for lowering a flowline through a body of water and subsequently hinging over the flowline to a substantially horizontal position near the waterbottom.
Connecting a pipeline or flowline bundle to a subsea production facility can be a difficult and time consuming procedure, particularly in deep water. This is not difficult to understand once it is appreciated that the pipeline may be several hundred meters below the pipelay vessel, relatively immobile and difficult to remotely manipulate. A method for approaching this problem is the so-called flowline stab-in and hinge over technique disclosed in U.S. Pat. No. 4,676,696.
In accordance with this known technique a flowline is stabbed vertically into a guide tube which is mounted near the waterbottom, until a pair of pivots mounted near the lower end of the flowline land onto a pair of pivot supports which are located at the lower ends of a pair of vertical slots formed on the inner side of the guide tube. After the pivots have landed onto said supports, lowering of the flowline is continued while the pipelay vessel moves away from above the guide tube, thereby hinging over the flowline to a horizontal position and laying the flowline away from the guide tube.
A drawback of the known technique is that a heaving motion of the pipelay vessel may cause a rough landing of the pivots onto the pivot supports which may lead to buckling of the flowline which is suddenly stopped at its lower end while it is still being lowered at its upper end.
SUMMARY OF THE INVENTION
Accordingly it is a purpose of the present invention to remedy this drawback and to provide a method and apparatus for stabbing a flowline into a guide tube and subsequently hinging over the flowline in a predetermined direction without the risk of buckling of the flowline.
The method according to the invention comprises the steps of: (a) erecting a guide tube adjacent the waterbottom, said guide tube comprising a central opening defined downwardly therethrough, a pair of parallel slots formed within said central opening at opposite side thereof, and passage means for allowing the flowline to hinge over about a horizontal pivot axis passing transversally through said slots; (b) stabbing a lower end of the flowline downwardly into the guide tube, and maneuvering pivots which are mounted at opposite sides of the flowline near the lower end thereof in slidable engagement with the slots; (c) deflecting the flowline near the lower end thereof in a predetermined lateral direction, thereby inducing at least a lower portion of the flowline to hinge over to an inclined position in response to lowering of the pivots into the slots; and (d) landing the pivots on a pair of pivot supports mounted at the lower ends of the slots, allowing the lower portion of the flowline to further hinge over to a substantially horizontal position and laying the flowline away from the guide tube.
The apparatus according to the invention comprises: (a) a guide tube which is suitable to be mounted in a vertical orientation near the waterbottom, said guide tube having a central opening defined downwardly therethrough, a pair of parallel slots formed within the central opening at the opposite side thereof; (b) the guide tube further comprising passage means for allowing the flowline to hinge over about a horizontal pivot axis passing transversally through the slots; (c) a pair of pivots mounted at opposite sides of the flowline near a lower end thereof, said pivots fitting in the slots in a slidable manner when the lower end of the flowline is stabbed into the guide tube; (d) guide means for maneuvering the pivots into slidable engagement with the slots; (e) deflector means for inducing at least a lower portion of the flowline to hinge over to an inclined position in response to lowering of the pivots into the slots; and (f) a pair of pivot supports mounted at the lower ends of the slots for supporting the pivots while hinging the flowline over to a horizontal position and laying the flowline away from the guide tube.
A principal advantage offered by the present invention is that the deflection of a lower portion of the flowline while the pivots are slidably located within the slots and before the pivots have reached the pivot supports at the lower ends of these slots induces the flowline to obtain a S or bow shape during its further descent thereby avoiding that the flowline has a straight orientation when the pivots land onto the pivot supports. A further advantage is that the deflection of the lower end of the flowline causes a gradual deceleration of said flowline end before the pivots land onto the pivot supports. Another advantage is that the direction of the flowline end deflection is controlled by the present invention.
In a first preferred embodiment of the apparatus according to the invention the flowline comprises at the lower end thereof a conical nose section and the guide tube is provided with deflector means comprising a deflector element which is mounted in an eccentric position within the central opening of the guide tube below the pivot supports.
In a second preferred embodiment of the apparatus according to the invention the flowline comprises at a location above said pivots deflector means provided by a cam which deflects the flowline into a tilted position when it slidably engages the upper end of the guide tube during the step of stabbing the flowline into the guide tube.
BRIEF DESCRIPTION OF THE DRAWINGS
Having thus generally described the method and apparatus of the present invention, the following is a more detailed description thereof given in accordance with specific reference to the accompanying drawings in which:
FIGS. 1, 2 and 3 show by sequential stages a flowline stab in hinge over procedure wherein a first preferred embodiment of the apparatus according to the invention is used.
FIGS. 4, 5 and 6 show by sequential stages a flowline stab in and hinge over procedure wherein a second preferred embodiment of the apparatus according to the invention is used.
DESCRIPTION OF PREFERRED EMBODIMENTS
Referring now to FIGS. 1, 2 and 3 there is shown the lower end portion of a flowline 1 which is laid from a floating pipelay vessel (not shown).
A guide tube 2 provided at the upper end thereof with a guide funnel 3 is mounted in a substantially vertical orientation near the waterbottom (not shown). Along the inner wall of the guide tube 2 there is arranged a pair of helical shoulders 4 (one of which is shown in the perspective cut away view of FIGS. 1, 2 and 3) which have a similar but opposite pitch and lead into avertical guide channel 5. The flowline 1 is near the lower end thereof provided with a conical nose section 7 on which aguide key 8 is mounted.
Theguide key 8, helical shoulders 4 and theguide channel 5 form guide means for guiding the flowline 1 in a predetermined angular orientation into the guide tube 2. If theguide key 8 lands onto one of the helical shoulders 4 further lowering of the flowline will induce theguide key 8 to slide along this shoulder 4 thereby rotating the nose section 7 and twisting the upper parts of the flowline until theguide key 8 has reached theguide channel 5.
When theguide key 8 reaches the upper entry of theguide channel 5 the lower end of the flowline 1 is oriented such that a pair ofpivots 10 which are mounted at opposite sides of the flowline on asupport collar 11 are located just above the upper entries 12 of a pair of vertical slots 13, so that upon further lowering of the flowline thepivots 10 will slide into the slots 13.
The upper slot entries 12 are too shallow to allow entry of theguide key 8 into the slots 13 during their descent along the shoulders 4.Axial guide ribs 14 are provided for centering the flowline in the guide tube 2. The guide tube 2 is further provided with adeflector rod 15 which is arranged in a horizontal orientation in the guide tube 2, close to theguide channel 5, in order to push the lower end of the flowline 1 away from theguide channel 5, as indicated by arrow I, when the conical nose section 7 slidably engaged therod 15.
When the nose section 7 slides along thedeflector rod 15, thepivots 10 are already located within the slots 13, so that the flowline 1 will upon further lowering thereof, hinge over about a horizontal pivot axis defined by thepivots 10, and the portion of the flowline 1 directly above thepivots 10 will hinge over in the direction indicated by arrow II. The hinging motion of the lower end of the flowline about thepivots 10 induces the flowline 1 to obtain a S or bow shape in a predetermined direction during its further descent thereby avoiding that the flowline 1 has a straight orientation when thepivots 10 land on pivot supports 16 at the lower ends of the slots 13. Thus thedeflector rod 15 ensures a smooth deceleration of the lower end of the flowline 1 before thepivots 10 land onto the pivot supports and simultaneously avoids any chance of buckling of the flowline due to a sudden stop of the lower end thereof while the upper part is still being lowered from the pipelay vessel (not shown).
As can be seen in FIG. 3 the flowline 1 is hinged over to a substantially horizontal position by further lowering the flowline from the pipelay vessel while moving the pipeline vessel away from a location above the guide tube 2. During the hinge over procedure the flowline hinges about a horizontal pivot axis defined by thepivots 10 while the portion of the flowline 1 beneath thepivots 10 swings through the wall of the tube 2 via a firstelongate passage 17 at one side of the tube 2 and the portion of the flowline above thepivots 10 swings through the wall of the tube 2 and funnel 3 via asecond passage 18 which is located at an opposite side of the tube 2, diametrically relative to saidfirst passage 17.
FIGS. 4, 5 and 6 show by sequential stages a stab in and hinge over procedure wherein a second preferred embodiment of the apparatus according to the invention is used. In these Figures there is shown the lower end of aflowline 21 which is laid from a floating pipelay vessel (not shown).
Aguide tube 22 is mounted in a substantially vertical orientation at thewaterbottom 23. Along the inner wall of theguide tube 22 there is arranged a pair of helical shoulders 24 (one of which is shown in the vertical sectional view of theguide tube 22 in FIGS. 4-6) which have a similar but opposite pitch and lead into avertical guide channel 25.
Theflowline 21 is near the lower end thereof provided with aconical nose section 27 on which aguide key 28 is mounted. Theguide key 28,helical shoulders 24 and theguide channel 25 form guide means for guiding theflowline 21 in a predetermined angular orientation into theguide tube 22. If the key 8 lands onto one of thehelical shoulders 24 further lowering of the flowline will induce the guide key to slide along thisshoulder 24, thereby rotating thenose section 27 and twisting the upper parts of the flowline until theguide key 28 has reached the upper entry of theguide channel 25.
When theguide key 28 reaches the upper entry of the guide channel 25 a pair ofpivots 30, which are mounted at opposite sides of the flowline on asupport collar 31, are located just above theupper entries 32 of a pair ofvertical slots 33, so that upon further lowering of the flowline thepivots 30 will slide into theslots 33.
The flowline 20 is at a location above thecollar 31 provided with acam 35 which, as can be seen in FIG. 5, deflects the portion of the flowline 1 above thepivots 30 in a lateral direction as indicated by arrow V when it slidably engages theupper rim 36 of theshoulders 24. When thecam 35 slides along saidrim 36 thepivots 30 are already located within theslots 33 and the lower portion of the flowline 20 will upon further lowering thereof into theguide tube 22 be induced by thecam 35 to gradually hinge over about a horizontal pivot axis defined by thepivots 30.
The hinging motion of the lower portion of theflowline 21 will induce theflowline 21, which is still deployed from a pipelay vessel located vertically above theguide tube 22, to obtain a S or bow shape in a predetermined direction during its further descent thereby avoiding that the flowline 1 has a straight orientation when thepivots 30 land on pivot supports 40 at the lower ends of theslots 33 and simultaneously avoids any chance of buckling of the flowline due to a sudden stop of the lower end thereof while the upper part thereof is still being lowered from the pipelay vessel.
After landing of thepivots 30 onto the pivot supports 40 theflowline 21 is hinged over to the substantially horizontal position shown in FIG. 6 by further lowering the flowline from the pipelay vessel while moving the vessel away from a location above the guide tube. During the hinge over procedure theflowline 21 hinges about a horizontal pivot axis defined by thepivots 30 while the portion of theflowline 21 beneath thepivots 30 swings through the wall of thetube 22 via a firstelongate passage 37 at one side of thetube 22 and the portion of theflowline 21 above thepivots 30 swings through the wall of thetube 22 andguide funnel 38 via asecond passage 39 which is located at an opposite side of thetube 22, diametrically relative to saidfirst passage 37.
It is observed that the flowline may be a single or multibore steel or composite pipe or may comprise a bundle of braided hydraulic and electrical conduits which are at the lower ends thereof encapsulated in a protective tube on which the nose section, guide key and pivots are mounted.
If the flowline is laid in deep water then it is generally desirable to steer the lower end thereof into the guide funnel by means of a Remotely Operated Vehicle (ROV).
Such a ROV could be used to orient the lower end of the flowline in a preset angular orientation when it is stabbed into the guide tube. In that case the presence of the helical shoulders within the guide tube could be omitted.
Furthermore, instead of mounting the guide tube on the waterbottom it may also be mounted on a subsea structure such as an Underwater Manifold Center (UMC). Such a UMC may be provided with a plurality of guide tubes for securing a plurality of underwater flowlines thereto, which flowlines lead to underwater wellheads of oil and/or gas wells.
Many other variations and modifications may be made in the apparatus and techniques hereinbefore described, both by those having experience in this technology, without departing from the concept of the present invention. Accordingly, it should be clearly understood that the apparatus and methods depicted in the accompanying drawings and referred to in the foregoing description are illustrative only and are not intended as limitations on the scope of the invention.

Claims (9)

What is claimed is:
1. A method for lowering a flowline through a body of water and subsequently hinging over the flowline to a substantially horizontal position near the waterbottom, the method comprising:
erecting a guide tube adjacent the waterbottom, said guide tube comprising a central opening defined downwardly therethrough, a pair of parallel slots formed within said central opening at the opposite side thereof, and passage means for allowing the flowline to hinge over about a horizontal pivot axis passing transversally through said slots;
stabbing a lower end of said flowline downwardly into the guide tube, and maneuvering pivots which are mounted at opposite sides of the flowline near the lower end thereof in slidable engagement with said slots;
deflecting the flowline near the lower end thereof in a predetermined lateral direction thereby inducing at least a lower portion of said flowline to hinge over to an inclined position in response to lowering of said pivots into said slots; and
landing said pivots on a pair of pivot supports mounted at the lower ends of said slots, allowing said lower portion of the flowline to further hinge over to a substantially horizontal position and laying the flowline away from the guide tube.
2. The method of claim 1, wherein the flowline is lowered through the body of water by deploying the flowline from a floating pipelay vessel.
3. An apparatus for lowering a flowline through a body of water and subsequently hinging over the flowline to a substantially horizontal position near the waterbottom, the apparatus comprising:
a guide tube which is suitable to be mounted in a vertical orientation near the waterbottom, said guide tube having a central opening defined downwardly therethrough, a pair of parallel slots formed within said central opening at the opposite side thereof;
means for stabbing a lower end of said flowline downwardly into the guide tube;
the guide tube further comprising passage means for allowing the flowline to hinge over about a horizontal pivot axis passing transversally through said slots;
a pair of pivots mounted at opposite sides of the flowline near a lower end thereof, said pivots fitting in said slots in a slidable manner when said lower end of the flowline is stabbed into the guide tube;
guide means for maneuvering the pivots into slidable engagement with the slots;
deflector means for inducing at least a lower portion of the flowline to hinge over to an inclined position in response to lowering of said pivots into said slots; and
a pair of pivot supports mounted at the lower ends of said slots for supporting the pivots while hinging the flowline over to a horizontal position and laying the flowline away from the guide tube.
4. The apparatus of claim 3, wherein the flowline comprises at the lower end thereof a conical nose section and the guide tube is provided with deflector means comprising a deflector element which is mounted in an eccentric position within the central opening of the guide tube below the pivot supports.
5. The apparatus of claim 4, wherein the deflector element comprises a rod which is oriented parallel to said pivot axis.
6. The apparatus of claim 3, wherein the flowline comprises at a location above said pivots deflector means provided by a cam which deflects the flowline into a tilted position when it slidably engages the upper end of the guide tube during the step of stabbing the flowline into the guide tube.
7. The apparatus of claim 3, wherein the flowline is at the lower end thereof provided with a guide key which is adapted to slidably engage guide means provided by one of a pair of helical shoulders which are oriented in opposite directions along the inner wall of the guide tube, and which form at the lower ends thereof a substantially vertically oriented guide channel along the inner wall of the tube so as to orient the flowline in a predetermined position in the guide tube when the key slides through said channel, in which position the pivots are aligned with said slots.
8. The apparatus of claim 7, wherein said slots have an upper entry in each one of said helical shoulders, each of said entries having a depth which is sufficiently small to prevent said guide key from entering into said slots when it slides in use along one of said shoulders.
9. The apparatus of claim 3, wherein the flowline comprises a bundle of hydraulic and electric conduits.
US07/338,5551987-09-301989-04-17Method and apparatus for installing a flowline near the waterbottomExpired - LifetimeUS4877356A (en)

Applications Claiming Priority (2)

Application NumberPriority DateFiling DateTitle
GB8722969AGB2210426B (en)1987-09-301987-09-30Method and apparatus for installing a flowline near the waterbottom
GB87229691987-09-30

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US07245606Continuation1988-09-19

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US07/338,555Expired - LifetimeUS4877356A (en)1987-09-301989-04-17Method and apparatus for installing a flowline near the waterbottom

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US (1)US4877356A (en)
BR (1)BR8805007A (en)
GB (1)GB2210426B (en)
NO (1)NO172202C (en)

Cited By (16)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US5340237A (en)*1991-11-051994-08-23Petroleo Brasileiro S.A.Guide-post interchangeability mechanism operated by remotely controlled vehicle
WO1999023351A1 (en)*1997-11-031999-05-14Kongsberg Offshore A/SA device for use for mounting and alignment of a christmas tree on a wellhead
US5983822A (en)1998-09-031999-11-16Texaco Inc.Polygon floating offshore structure
US6196757B1 (en)*1997-12-092001-03-06Kongsberg Offshore AsAnchoring mechanism for a guide post
US6230645B1 (en)1998-09-032001-05-15Texaco Inc.Floating offshore structure containing apertures
US6481504B1 (en)1999-06-292002-11-19Fmc CorporationFlowline connector with subsea equipment package
WO2005047642A1 (en)2003-11-132005-05-26Aker Kvaerner Subsea AsVertical installation of an elongated process unit
US20060005971A1 (en)*2004-07-122006-01-12Deep Down Inc.Method and apparatus for installing an undersea umbilical
US20070227740A1 (en)*2004-05-142007-10-04Fontenette Lionel MFlying Lead Connector and Method for Making Subsea Connections
US20080286050A1 (en)*2007-05-172008-11-20Chevron U.S.A. Inc.Stab and hinge-over pipeline end terminal assembly
US20100044052A1 (en)*2008-08-202010-02-25Schlumberger Technology CorporationSystem and method for connecting and aligning a compliant guide
US20100199740A1 (en)*2009-02-112010-08-12Uwe MuschalikMethod of and apparatus for making pipe from a tubular workpiece
US20120125635A1 (en)*2010-11-242012-05-24Halliburton Energy Services, Inc.Entry guide formation on a well liner hanger
US20160145953A1 (en)*2013-12-112016-05-26Blackhawk Specialty Tools, LlcMethod and apparatus for automated connection of a fluid conduit
US9540892B2 (en)2007-10-242017-01-10Halliburton Energy Services, Inc.Setting tool for expandable liner hanger and associated methods
CN115199817A (en)*2022-06-302022-10-18中海石油(中国)有限公司Device and method for installing and positioning manifold of steel cylinder protection underwater production system

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US4102146A (en)*1977-05-251978-07-25Sofec, Inc.Method of and apparatus for handling hose underwater
US4277202A (en)*1978-05-121981-07-07Compagnie Francaise Des PetrolesPositioning of the end of an underwater flowline
US4676696A (en)*1984-08-171987-06-30Shell Oil CompanyApparatus for installing a flowline section near the seabed

Patent Citations (3)

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Publication numberPriority datePublication dateAssigneeTitle
US4102146A (en)*1977-05-251978-07-25Sofec, Inc.Method of and apparatus for handling hose underwater
US4277202A (en)*1978-05-121981-07-07Compagnie Francaise Des PetrolesPositioning of the end of an underwater flowline
US4676696A (en)*1984-08-171987-06-30Shell Oil CompanyApparatus for installing a flowline section near the seabed

Cited By (27)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US5340237A (en)*1991-11-051994-08-23Petroleo Brasileiro S.A.Guide-post interchangeability mechanism operated by remotely controlled vehicle
WO1999023351A1 (en)*1997-11-031999-05-14Kongsberg Offshore A/SA device for use for mounting and alignment of a christmas tree on a wellhead
GB2346913A (en)*1997-11-032000-08-23Kongsberg Offshore AsA device for use for mounting and alignment of a Christmas tree on a wellhead
GB2346913B (en)*1997-11-032001-10-24Kongsberg Offshore AsA device for use for mounting and alignment of a christmas tree on a wellhead
US6408949B1 (en)1997-11-032002-06-25Kongsberg Offshore A/SDevice for use for mounting and alignment of a christmas tree on a wellhead
US6196757B1 (en)*1997-12-092001-03-06Kongsberg Offshore AsAnchoring mechanism for a guide post
US5983822A (en)1998-09-031999-11-16Texaco Inc.Polygon floating offshore structure
US6230645B1 (en)1998-09-032001-05-15Texaco Inc.Floating offshore structure containing apertures
US6481504B1 (en)1999-06-292002-11-19Fmc CorporationFlowline connector with subsea equipment package
US20080199257A1 (en)*2003-11-132008-08-21Aker Kvaernersubsea AsVertical Installation of an Elongated Process Unit
WO2005047642A1 (en)2003-11-132005-05-26Aker Kvaerner Subsea AsVertical installation of an elongated process unit
US20070227740A1 (en)*2004-05-142007-10-04Fontenette Lionel MFlying Lead Connector and Method for Making Subsea Connections
US7467662B2 (en)*2004-07-122008-12-23Deep Down, Inc.Method and apparatus for installing an undersea umbilical
US20060005971A1 (en)*2004-07-122006-01-12Deep Down Inc.Method and apparatus for installing an undersea umbilical
US7794177B2 (en)2007-05-172010-09-14Delack KristenStab and hinge-over pipeline and terminal assembly
US20080286050A1 (en)*2007-05-172008-11-20Chevron U.S.A. Inc.Stab and hinge-over pipeline end terminal assembly
US9540892B2 (en)2007-10-242017-01-10Halliburton Energy Services, Inc.Setting tool for expandable liner hanger and associated methods
US20110168400A1 (en)*2008-08-202011-07-14Jonathan MachinSystem and method for connecting and aligning a compliant guide
US20100044052A1 (en)*2008-08-202010-02-25Schlumberger Technology CorporationSystem and method for connecting and aligning a compliant guide
US20100199740A1 (en)*2009-02-112010-08-12Uwe MuschalikMethod of and apparatus for making pipe from a tubular workpiece
US8459085B2 (en)*2009-02-112013-06-11Sms Meer GmbhMethod of and apparatus for making pipe from a tubular workpiece
US20120125635A1 (en)*2010-11-242012-05-24Halliburton Energy Services, Inc.Entry guide formation on a well liner hanger
US9725992B2 (en)*2010-11-242017-08-08Halliburton Energy Services, Inc.Entry guide formation on a well liner hanger
US20160145953A1 (en)*2013-12-112016-05-26Blackhawk Specialty Tools, LlcMethod and apparatus for automated connection of a fluid conduit
US9689216B2 (en)*2013-12-112017-06-27Blackhawk Specialty Tools, LlcMethod and apparatus for automated connection of a fluid conduit
CN115199817A (en)*2022-06-302022-10-18中海石油(中国)有限公司Device and method for installing and positioning manifold of steel cylinder protection underwater production system
CN115199817B (en)*2022-06-302024-03-08中海石油(中国)有限公司Device and method for installing and positioning manifold of steel cylinder protection underwater production system

Also Published As

Publication numberPublication date
BR8805007A (en)1989-05-02
GB2210426B (en)1991-08-21
NO172202C (en)1993-06-16
NO884317D0 (en)1988-09-29
NO884317L (en)1989-03-31
GB8722969D0 (en)1987-11-04
NO172202B (en)1993-03-08
GB2210426A (en)1989-06-07

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